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A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Standard

A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation. / Kallenrode, May Britt.
in: Journal of Geophysical Research A: Space Physics, Jahrgang 102, Nr. A10, 97JA02035, 01.10.1997, S. 22335-22345.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Kallenrode, MB 1997, 'A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation', Journal of Geophysical Research A: Space Physics, Jg. 102, Nr. A10, 97JA02035, S. 22335-22345. https://doi.org/10.1029/97JA02035

APA

Kallenrode, M. B. (1997). A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation. Journal of Geophysical Research A: Space Physics, 102(A10), 22335-22345. Artikel 97JA02035. https://doi.org/10.1029/97JA02035

Vancouver

Kallenrode MB. A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation. Journal of Geophysical Research A: Space Physics. 1997 Okt 1;102(A10):22335-22345. 97JA02035. doi: 10.1029/97JA02035

Bibtex

@article{2dcdcc0aec34458a9b648e55ceb0c6d0,
title = "A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation",
abstract = "Traveling interplanetary shocks can accelerate protons up to energies of some tens of MeV. Intensity and anisotropy time profiles observed in interplanetary space can be used to determine the scattering conditions as well as the evolution of the shock efficiency along the observer's magnetic field line. The latter can be described as a superposition of an azimuthal variation along the shock front, which accounts for the dependence of intensity time profiles on the angular distance between the observer and the nose of the shock, and a radial variation, which probably is related to the energetics of the solar event and the shock. Fits with a black box model to 44 particle events lead to the following results: (1) overall scattering conditions in interplanetary space are not different in events with and without interplanetary shock, (2) the radial variation S ∼ rα of the injection has a power law index α between -5.5 and +4.5 with α ≤ 0 for most of the events, (3) a separate solar component is required in four of 44 events only, (4) within the broad scatter from event to event, α and λ are independent of whether the observer is located east or west of the flare normal and (5) if the same shock has been observed by two spacecraft, observations on both spacecraft can be described consistently. Results (4) and (5) suggest that the description of the injection in the black box model is a reasonable approximation. The other results give hints on the acceleration: First, there appears to be no significant enhancement in overall interplanetary turbulence which could lead to a more efficient acceleration. Second, in most of the events presented here the number of injected particles per unit surface of the shock is highest close to the Sun; in about half of the events also the number of particles expressed as fraction of the ambient medium is highest close to the Sun. This has two implications: (1) either there is a strong contribution of flare-accelerated particles or, in the context of current knowledge more likely, the shock is a more efficient particle accelerator close to the Sun than in interplanetary space, and (2) the relatively small amount of particles accelerated locally in interplanetary space does not require significant acceleration, it might even be reaccelerated material from the large population of particles accelerated close to the Sun. Copyright 1997 by the American Geophysical Union.",
keywords = "Engineering",
author = "Kallenrode, {May Britt}",
year = "1997",
month = oct,
day = "1",
doi = "10.1029/97JA02035",
language = "English",
volume = "102",
pages = "22335--22345",
journal = "Journal of Geophysical Research A: Space Physics",
issn = "0148-0227",
publisher = "Wiley-Blackwell Publishing, Inc.",
number = "A10",

}

RIS

TY - JOUR

T1 - A statistical study of the spatial evolution of shock acceleration efficiency for 5 MeV protons and subsequent particle propagation

AU - Kallenrode, May Britt

PY - 1997/10/1

Y1 - 1997/10/1

N2 - Traveling interplanetary shocks can accelerate protons up to energies of some tens of MeV. Intensity and anisotropy time profiles observed in interplanetary space can be used to determine the scattering conditions as well as the evolution of the shock efficiency along the observer's magnetic field line. The latter can be described as a superposition of an azimuthal variation along the shock front, which accounts for the dependence of intensity time profiles on the angular distance between the observer and the nose of the shock, and a radial variation, which probably is related to the energetics of the solar event and the shock. Fits with a black box model to 44 particle events lead to the following results: (1) overall scattering conditions in interplanetary space are not different in events with and without interplanetary shock, (2) the radial variation S ∼ rα of the injection has a power law index α between -5.5 and +4.5 with α ≤ 0 for most of the events, (3) a separate solar component is required in four of 44 events only, (4) within the broad scatter from event to event, α and λ are independent of whether the observer is located east or west of the flare normal and (5) if the same shock has been observed by two spacecraft, observations on both spacecraft can be described consistently. Results (4) and (5) suggest that the description of the injection in the black box model is a reasonable approximation. The other results give hints on the acceleration: First, there appears to be no significant enhancement in overall interplanetary turbulence which could lead to a more efficient acceleration. Second, in most of the events presented here the number of injected particles per unit surface of the shock is highest close to the Sun; in about half of the events also the number of particles expressed as fraction of the ambient medium is highest close to the Sun. This has two implications: (1) either there is a strong contribution of flare-accelerated particles or, in the context of current knowledge more likely, the shock is a more efficient particle accelerator close to the Sun than in interplanetary space, and (2) the relatively small amount of particles accelerated locally in interplanetary space does not require significant acceleration, it might even be reaccelerated material from the large population of particles accelerated close to the Sun. Copyright 1997 by the American Geophysical Union.

AB - Traveling interplanetary shocks can accelerate protons up to energies of some tens of MeV. Intensity and anisotropy time profiles observed in interplanetary space can be used to determine the scattering conditions as well as the evolution of the shock efficiency along the observer's magnetic field line. The latter can be described as a superposition of an azimuthal variation along the shock front, which accounts for the dependence of intensity time profiles on the angular distance between the observer and the nose of the shock, and a radial variation, which probably is related to the energetics of the solar event and the shock. Fits with a black box model to 44 particle events lead to the following results: (1) overall scattering conditions in interplanetary space are not different in events with and without interplanetary shock, (2) the radial variation S ∼ rα of the injection has a power law index α between -5.5 and +4.5 with α ≤ 0 for most of the events, (3) a separate solar component is required in four of 44 events only, (4) within the broad scatter from event to event, α and λ are independent of whether the observer is located east or west of the flare normal and (5) if the same shock has been observed by two spacecraft, observations on both spacecraft can be described consistently. Results (4) and (5) suggest that the description of the injection in the black box model is a reasonable approximation. The other results give hints on the acceleration: First, there appears to be no significant enhancement in overall interplanetary turbulence which could lead to a more efficient acceleration. Second, in most of the events presented here the number of injected particles per unit surface of the shock is highest close to the Sun; in about half of the events also the number of particles expressed as fraction of the ambient medium is highest close to the Sun. This has two implications: (1) either there is a strong contribution of flare-accelerated particles or, in the context of current knowledge more likely, the shock is a more efficient particle accelerator close to the Sun than in interplanetary space, and (2) the relatively small amount of particles accelerated locally in interplanetary space does not require significant acceleration, it might even be reaccelerated material from the large population of particles accelerated close to the Sun. Copyright 1997 by the American Geophysical Union.

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=37149019000&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/e3986ee7-2bf9-37e5-af7c-8c43537a0b42/

U2 - 10.1029/97JA02035

DO - 10.1029/97JA02035

M3 - Journal articles

AN - SCOPUS:37149019000

VL - 102

SP - 22335

EP - 22345

JO - Journal of Geophysical Research A: Space Physics

JF - Journal of Geophysical Research A: Space Physics

SN - 0148-0227

IS - A10

M1 - 97JA02035

ER -

In der gleichen Zeitschrift

Propagation of particles injected from interplanetary shocks: A black box model and its consequences for acceleration theory and data interpretation

Kallenrode, M. B. & Wibberenz, G., 01.10.1997, in: Journal of Geophysical Research A: Space Physics. 102, A10, S. 22311-22334 24 S., 97JA01677.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

The temporal and spatial development of MeV proton acceleration at interplanetary shocks

Kallenrode, M. B., 01.10.1997, in: Journal of Geophysical Research A: Space Physics. 102, A10, S. 22347-22363 17 S., 97JA01678.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

DOI

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